title: "Week 7: Disability & Neurological Emergencies"
Week 7: Disability & Neurological Emergencies
Week 7 revision focuses on assessing consciousness and altered mental state in critically ill patients. This integrates content from Week 1 (ABCDE approach, seizures) with focused revision on GCS scoring and systematic disability assessment.
1. Consciousness Assessment
Glasgow Coma Scale (GCS)
The GCS provides objective assessment of consciousness across three domains. Total score ranges from 3 (deep coma) to 15 (fully alert).
GCS Components (E + V + M):
- Eye Opening (E): 4 = Spontaneous, 3 = To voice, 2 = To pain, 1 = None
- Verbal Response (V): 5 = Oriented, 4 = Confused, 3 = Inappropriate words, 2 = Incomprehensible sounds, 1 = None
- Motor Response (M): 6 = Obeys commands, 5 = Localizes pain, 4 = Withdraws from pain, 3 = Flexion (decorticate), 2 = Extension (decerebrate), 1 = None
Clinical interpretation:
- GCS 13-15: Mild impairment
- GCS 9-12: Moderate impairment
- GCS ≤8: Severe impairment (typically requires intubation for airway protection)
Common pitfalls:
- Don't add fractional scores — if patient has different responses, take the best response
- Sedation affects scoring — document "GCS 3T" if intubated (T = tube)
- Localizing pain (M5) means purposeful movement toward stimulus, not just withdrawing
AVPU Scale
Simpler rapid assessment used in DETECT/ABCDE approach:
- Alert — spontaneously conscious, oriented
- Voice — responds to verbal stimuli
- Pain — responds only to painful stimuli
- Unresponsive — no response to any stimulus
When to use:
- AVPU: Quick triage, handovers, rapid deterioration screening
- GCS: Detailed assessment, trending consciousness, ICU monitoring
Pupil Examination
Part of neurological assessment in altered mental state:
Pupil Assessment (PEARL):
- Pupils Equal, Round, Reactive to Light
- Asymmetry: Consider mass effect (subdural, extradural, tumor)
- Bilateral dilation: Brainstem injury, severe hypoxia, drugs (anticholinergics)
- Bilateral pinpoint: Opioid toxicity, pontine hemorrhage
2. Altered Mental State — AEIOU-TIPS
Systematic differential diagnosis framework for undifferentiated altered consciousness:
A — Alcohol/Drug Abuse (ETOH intoxication, withdrawal)
E — Encephalopathy (hepatic, uremic), Electrolyte disorders (hyponatremia, hypercalcemia)
I — Infection (meningitis, encephalitis, urosepsis, pneumonia)
O — Overdose (opioids, benzodiazepines), Oxygen (hypoxia, hypercapnia)
U — Uremia (renal failure)
T — Trauma (head injury, subdural hematoma), Temperature (hypo/hyperthermia), Thyroid storm, Toxins
I — Insulin (hypoglycemia, HHS, DKA)
P — Psychosis (schizophrenia, acute psychotic episode)
S — Stroke (ischemic, hemorrhagic), Seizure (post-ictal state), Shock (hypoperfusion)
Clinical approach:
- Rapid bedside glucose — treat hypoglycemia immediately (50mL D50% IV)
- Vital signs — fever (infection), hypo/hypertension (shock, stroke)
- Focused history — collateral from paramedics, family, medication bottles
- Exam — pupils, focal neurology, signs of trauma, needle marks
Key investigations:
- VBG: Glucose, pH, lactate, CO2, Na+, hemoglobin
- Blood cultures if febrile
- CT brain if focal neurology, trauma, or no obvious metabolic cause
- LP if meningitis suspected (after imaging rules out mass effect)
3. ABCDE/DETECT Approach
Systematic framework for detecting and preventing deterioration in critically ill patients. Used extensively in simulation and bedside assessment.
DETECT System (ABCDE-FG):
- Do no harm (personal safety first, universal precautions)
- End-of-bed assessment (how does the patient look?)
- Treat as you go (don't wait for investigations to start resuscitation)
- Escalate and communicate (call for help early)
- Continuously reassess
- Trends in observations matter (single values can mislead)
ABCDE Assessment Structure
A — Airway
- Look: Obstructed? Foreign body? Vomitus?
- Listen: Stridor, snoring, gurgling
- Feel: Air movement
- Action: Open airway (jaw thrust, suction), consider intubation if GCS ≤8
B — Breathing
- Look: Respiratory rate, work of breathing, chest symmetry
- Listen: Breath sounds, wheeze, crackles
- Feel: Trachea, chest expansion
- Action: Oxygen to target SpO2 92-96%, treat reversible causes (bronchodilators for asthma, tension pneumothorax decompression)
C — Circulation
- Look: Skin color, cap refill, peripheries
- Listen: Heart sounds, murmurs
- Feel: Pulses (rate, rhythm, volume), BP
- Action: IV access, fluid bolus if hypovolemic, vasopressors if septic shock
D — Disability
- Look: GCS/AVPU, pupils (PEARL), posture
- Listen: Speech quality, orientation
- Feel: Focal weakness, tone
- Action: Treat hypoglycemia, reverse opioids (naloxone), seizure management (benzodiazepines)
E — Exposure
- Look: Full body examination, rashes, trauma
- Listen: Abdomen (bowel sounds), signs of bleeding
- Feel: Temperature, abdomen for rigidity/guarding
- Action: Warm/cool patient, treat specific findings
F — Fluids
- Check: Input/output balance, urine output
- Action: Adjust fluid therapy, consider catheterization
G — Glucose
- Check: Bedside glucose
- Action: Treat hypo/hyperglycemia
ISBAR Handover
Structured communication for escalation and handovers:
- Identification — Your name, role, location
- Situation — Patient name, age, presenting problem
- Background — PMHx, current medications, allergies
- Assessment — ABCDE findings, observations, your impression
- Recommendation — What you want them to do (review, escalate, transfer)
4. Severe Traumatic Brain Injury
Pathophysiology
Cerebral Perfusion Pressure (CPP):
CPP = MAP - ICP
- Target CPP: 60-70 mmHg (below 50 = ischemia risk)
- Normal ICP: <15 mmHg (treatment threshold >20 mmHg)
- Sustained ICP >20 mmHg causes global cerebral ischemia
Munroe-Kelly Doctrine: The skull is a fixed volume. Any increase in one compartment (brain, blood, CSF, mass) causes reciprocal decrease in others. Beyond compensatory capacity → rapid ICP rise → herniation.
ICU Management Goals
Avoid secondary brain injury:
- Avoid hypoxia — PaO2 >60 mmHg, SpO2 >92%
- Avoid hypotension — Systolic BP >100 mmHg, MAP >80 mmHg
- Avoid hypovolemia — Adequate fluid resuscitation
- Avoid hyperthermia — Target normothermia (fever increases metabolic demand)
- Optimize CPP — Manipulate MAP and ICP
Tiered ICP Management
Tier 1 (First-line):
- Head up 30° — improves cerebral venous drainage
- Sedation + analgesia — midazolam or propofol, fentanyl (reduces metabolic demand)
- Maintain normocapnia — PaCO2 ~35 mmHg (avoid hypercapnia → vasodilation → increased ICP)
- EVD drainage — if external ventricular drain in place, drain CSF to reduce ICP
Tier 2 (Refractory ICP >20 despite Tier 1):
- Neuromuscular blockade — vecuronium or rocuronium (prevents bucking on ventilator, stops patient-ventilator asynchrony)
- Osmotherapy:
- Mannitol 0.25-1 g/kg IV — osmotic diuretic, draws fluid from brain tissue
- Hypertonic saline (3% or 23.4%) — raises serum sodium, reduces cerebral edema
- Monitor serum osmolality (<320 mOsm/kg to avoid renal injury)
Tier 3 (Last resort for life-threatening ICP):
- Barbiturate coma — sodium thiopentone infusion titrated to burst suppression on EEG (reduces cerebral metabolic rate by up to 50%)
- Side effects: Hypotension (may need vasopressors), long half-life, hyperkalemia
- Therapeutic hypothermia — cool to 33-35°C (no strong evidence, increases infection risk)
- Decompressive craniectomy — discussed below
Monitoring in Severe TBI
Bedside monitor interpretation:
- ICP waveform — normal shows pulsatile pattern; loss of pulsatility suggests poor compliance
- CPP calculation — continuously calculated from MAP and ICP
- EEG (if thiopentone used) — target burst suppression pattern
- End-tidal CO2 — proxy for PaCO2 (confirm with ABG)
When to escalate:
- ICP >20 mmHg sustained despite Tier 1/2 interventions
- CPP <50 mmHg
- Pupillary changes (blown pupil = herniation)
- Sudden neurological deterioration
DECRA Trial — Decompressive Craniectomy
Key findings (NEJM 2011):
DECRA Trial Results:
Early bifrontal decompressive craniectomy in refractory ICP decreased ICP and reduced ICU length of stay, but was associated with worse functional outcomes at 6 months (extended Glasgow Outcome Scale).
Interpretation: The intervention we thought was helping (by lowering ICP) actually harmed patients. Why? Possible explanations:
- Patients laid flat during surgery → worsened ICP transiently
- Surgical stress compounded existing brain injury
- ICP number became the focus, not long-term functional recovery
- "First, do no harm" — sometimes best management is continued medical therapy, not surgery
Clinical implication:
- Decompressive craniectomy is not routinely recommended for diffuse TBI with refractory ICP
- May still be used for mass lesions (subdural, extradural) causing focal compression
- Focus on optimizing medical management (Tier 1/2/3) before considering surgery
5. Headache Differentials
Primary vs Secondary Headache
| Category | Examples | Key Features |
|---|---|---|
| Primary | Migraine, Tension-type, Cluster | Recurrent pattern, no red flags |
| Secondary — Life-threatening | SAH, Meningitis, Venous sinus thrombosis, Temporal arteritis, Raised ICP | Red flags present |
| Secondary — Other | Medication overuse, Post-LP, Sinusitis | History guides diagnosis |
SNOOP Red Flags
- Systemic symptoms — fever, weight loss, cancer history, HIV
- Neurological signs — focal deficit, papilloedema, altered consciousness
- Onset sudden — "thunderclap" (worst headache of life, maximal within seconds)
- Older age — new headache after age 50 (temporal arteritis, malignancy)
- Pattern change — progressive worsening, worse lying flat, early morning headache
"Thunderclap headache" = worst headache of life, maximal within seconds
Assume subarachnoid haemorrhage until proven otherwise.
6. Subarachnoid Haemorrhage (SAH)
Subarachnoid Haemorrhage:
- Cause: 85% ruptured berry aneurysm (Circle of Willis)
- Mortality: ~50% (many die before reaching hospital)
- Peak age: 40-60 years
- Risk factors: Smoking, hypertension, family history, polycystic kidney disease, connective tissue disorders
Clinical Features
- Thunderclap headache — "worst headache of my life," maximal at onset
- Neck stiffness (meningism — blood irritates meninges)
- Nausea, vomiting, photophobia
- Loss of consciousness at onset (~50%)
- Focal neurological signs (CN III palsy → posterior communicating artery aneurysm)
- Seizures (~10%)
Investigation Algorithm
SAH Investigation Pathway:
- Non-contrast CT brain — sensitivity ~98% within 6 hours, drops to ~90% at 24h
- If CT negative + high clinical suspicion → Lumbar puncture (≥12 hours after onset)
- LP findings: Uniformly bloodstained CSF in all bottles + xanthochromia (yellow supernatant)
- If SAH confirmed → CT angiogram to locate aneurysm
- Definitive treatment: Endovascular coiling (preferred) or surgical clipping
Hunt and Hess Grading
| Grade | Clinical State | Mortality |
|---|---|---|
| I | Asymptomatic or mild headache | ~5% |
| II | Moderate headache, nuchal rigidity, CN palsy | ~10% |
| III | Drowsiness, confusion, mild focal deficit | ~15-20% |
| IV | Stupor, moderate-severe hemiparesis | ~30-40% |
| V | Coma, decerebrate posturing | ~50-70% |
SAH Complications
| Complication | Timing | Prevention/Treatment |
|---|---|---|
| Rebleeding | First 24 hours (peak) | Secure aneurysm early (coil/clip) |
| Vasospasm | Days 4-14 (peak day 7) | Nimodipine 60mg PO q4h for 21 days |
| Hydrocephalus | Acute or delayed | EVD (acute), VP shunt (chronic) |
| Hyponatraemia | Days 2-10 | SIADH or cerebral salt wasting |
| Seizures | Any time | Prophylaxis controversial |
Nimodipine 60 mg PO every 4 hours for 21 days is standard in all SAH patients. It reduces the risk of poor outcome from vasospasm.
What is the next step?
7. Status Epilepticus
Status Epilepticus Definition:
- Seizure lasting >5 minutes, OR
- ≥2 seizures without return to baseline consciousness between them
Why 5 minutes? Most self-terminating seizures stop within 2-3 minutes. If still seizing at 5 minutes, unlikely to stop spontaneously.
Timed Drug Algorithm
| Time | Step | Drug | Dose |
|---|---|---|---|
| 0-5 min | Confirm seizure, supportive care | O₂, recovery position | Check glucose |
| 5 min | 1st line | Midazolam IM | 10 mg IM (or diazepam 10 mg IV) |
| 10 min | Repeat if still seizing | Midazolam IM | 10 mg IM (second dose) |
| 20 min | 2nd line | Levetiracetam IV | 60 mg/kg (max 4.5g) over 10 min |
| OR | Phenytoin IV | 20 mg/kg (max 1.5g) over 20 min | |
| OR | Sodium valproate IV | 40 mg/kg (max 3g) over 10 min | |
| 40 min | 3rd line (Refractory SE) | RSI + propofol/thiopentone | ICU admission required |
IM midazolam is preferred first-line because:
- No IV access needed (faster delivery)
- Good IM absorption (rapid onset)
- RAMPART trial: IM midazolam non-inferior to IV lorazepam
ESETT Trial
ESETT Trial (2019): Compared levetiracetam, fosphenytoin, and valproate as second-line agents for benzodiazepine-resistant status epilepticus.
Result: All three were equally effective (~45-50% seizure termination). Choice based on:
- Levetiracetam: Safest profile, no cardiac monitoring needed
- Phenytoin: Risk of hypotension, arrhythmia (cardiac monitoring), purple glove syndrome
- Valproate: Avoid in pregnancy, liver disease, mitochondrial disorders
Refractory Status Epilepticus
Refractory SE = seizures continuing despite 1st and 2nd line agents.
Management:
- RSI and intubation (airway protection + drug delivery)
- Propofol infusion or thiopentone infusion → titrate to EEG burst suppression
- ICU admission — continuous EEG monitoring
- Investigate underlying cause (CT, LP, metabolic screen, toxicology)
8. Seizure Classification
ILAE Classification
ILAE seizure classification: focal (aware) = one hemisphere, consciousness preserved (e.g. hand twitching); focal (impaired awareness) = one hemisphere, consciousness impaired (e.g. staring, lip-smacking); focal → bilateral tonic-clonic = starts focal then generalises; generalised = both hemispheres from onset (tonic-clonic, absence, myoclonic).
First Seizure Workup
| Investigation | Rationale |
|---|---|
| Blood glucose | Hypoglycaemia is immediately treatable |
| Electrolytes (Na, Ca, Mg) | Hyponatraemia, hypocalcaemia cause seizures |
| FBC, CRP | Infection screen |
| ECG | Arrhythmia mimicking seizure (convulsive syncope) |
| CT brain | Focal features, prolonged post-ictal, new onset in adults |
| EEG | Outpatient — classifies epilepsy type |
| MRI brain | Gold standard structural imaging (outpatient) |
| LP | If meningitis/encephalitis suspected (after CT) |
Driving Restrictions (Australian — Austroads)
| Scenario | Private Licence | Commercial Licence |
|---|---|---|
| First unprovoked seizure | 6 months seizure-free | 5 years seizure-free |
| Diagnosed epilepsy | 12 months seizure-free | 10 years seizure-free |
| Provoked seizure (acute metabolic) | After cause treated | After cause treated |
Always document driving advice in the notes. This is a medicolegal requirement.
9. Cross-References
For detailed management of specific causes of altered mental state, see:
- Stroke and SAH imaging → content/critical-care/emergency-medicine.mdx (Section 7)
- Opioid toxicity → content/wiki/opioid-toxicity.mdx
- Hypoglycemia → content/wiki/deteriorating-patient-abcde.mdx
- Anaesthetics and sedation → content/critical-care/anaesthetics.mdx
- Headache/seizure in trauma → content/critical-care/week5-trauma.mdx (TBI section)
Practice Questions
What is his GCS (Glasgow Coma Scale)?
What is the cerebral perfusion pressure?
What is the most likely cause using AEIOU-TIPS?
Week 7 Study Checklist
Click to expand or view deep dives
title: "Week 7: Fracture Management"
Week 7: Fracture Management
1. Describing Fractures Systematically
Systematic Approach to X-ray Description
- Patient name and demographics
- Type of X-ray (anteroposterior, lateral, oblique)
- Body part imaged
- Which bone is fractured
- Which part of the bone (diaphysis, metaphysis, epiphysis)
- Fracture pattern (transverse, oblique, spiral, comminuted)
- Displacement (angulation, translation, rotation, shortening)
- Articular involvement
- Other findings
When presenting, start with the easy/obvious things while you're thinking about the complex findings. "This is an anteroposterior and lateral X-ray of the left ankle in a 45-year-old male..."
Why Two Views?
Always obtain orthogonal views (anteroposterior and lateral). A fracture may appear well-aligned on one view but have significant displacement on another. Include the joint above and below when possible.
Source: AO Foundation; local orthopaedic imaging protocols.
2. Bone Anatomy
Parts of a Long Bone
| Region | Description |
|---|---|
| Epiphysis | Ends of the bone, forms part of the joint (articular surface) |
| Physis (Growth plate) | Cartilaginous growth zone in children (between epiphysis and metaphysis) |
| Metaphysis | Flared region between physis and diaphysis |
| Diaphysis | Shaft/mid-portion of the bone |
Describing Location
- Proximal - closer to the trunk
- Distal - further from the trunk
- Mid-shaft - middle third of diaphysis
- Subcapital - just below the head (e.g., femoral neck)
- Intertrochanteric - between trochanters (femur)
3. Fracture Types
| Type | Description |
|---|---|
| Transverse | Fracture line perpendicular to long axis of bone |
| Oblique | Fracture line at an angle to long axis |
| Spiral | Fracture line spirals around the bone (rotational injury) |
| Comminuted | More than 2 fragments |
| Segmental | Two separate fractures in the same bone creating an isolated segment |
| Butterfly | Triangular fragment on one side of the fracture |
| Impacted | Fragments driven into each other |
| Avulsion | Fragment pulled off by tendon/ligament attachment |
| Intra-articular | Fracture extends into the joint surface |
Intra-articular fractures have implications for joint function. Joints don't heal like bone - articular damage leads to stiffness, pain, and post-traumatic osteoarthritis.
4. Paediatric Fractures
Children's bones are different - more porous, more flexible, have growth plates.
Special Paediatric Fracture Patterns
| Type | Description |
|---|---|
| Greenstick | Bone bends and partially breaks (like bending a green twig) |
| Buckle/Torus | Compression injury causing bulging of cortex |
| Plastic deformation | Bone bends without visible fracture line |
| Salter-Harris | Fractures involving the growth plate (physis) |
Salter-Harris Classification
- S - Straight across (Type I) - through physis only
- A - Above (Type II) - through physis and metaphysis
- L - Lower (Type III) - through physis and epiphysis
- T - Trans-physeal (Type IV) - crosses metaphysis, physis, and epiphysis
- R - Rammed/cRushed (Type V) - compression injury to physis
Growth plate injuries can cause:
- Growth arrest (limb shorter)
- Overgrowth
- Angular deformity (if partial fusion occurs)
Higher Salter-Harris types have worse prognosis.
Forearm Fractures in Children
- Very common injury
- Often treated with closed reduction and casting
- Mid-shaft fractures need above-elbow cast to control rotation
- Good remodelling potential in children
Source: Salter-Harris classification (original 1963 paper); local paediatric fracture pathways.
5. Describing Displacement
Always describe the position of the DISTAL fragment relative to the PROXIMAL fragment.
Types of Displacement
| Type | Description |
|---|---|
| Translation | Sideways shift (anterior, posterior, medial, lateral) |
| Angulation | Angle between fragments (varus, valgus, anterior, posterior) |
| Rotation | Rotational malalignment (need to see joints above and below) |
| Shortening | Overlap of fragments causing shortened limb |
Varus vs Valgus
Varus = Distal fragment angles TOWARD midline (bow-legged, "O")
Valgus = Distal fragment angles AWAY from midline (knock-kneed, "X")
Think of it as: Varus = "O" between the knees. Valgus = knock-knees like an "X"
6. Dislocations
Terminology
| Term | Definition |
|---|---|
| Subluxation | Partial loss of joint contact (some articular surfaces still in contact) |
| Dislocation | Complete loss of joint contact (articular surfaces completely separated) |
| Diastasis | Widening of a normally tight articulation (e.g., pubic symphysis, tibiofibular joint) |
Shoulder Dislocation
- Most common: anterior-inferior (humeral head goes forward and under glenoid)
- Requires urgent/semi-urgent reduction
- Axillary nerve at risk (winds around surgical neck of humerus)
- Risk of avascular necrosis if prolonged
7. Neck of Femur Fractures
High mortality: Around 20-30% 12-month mortality in older adults after hip fracture (higher in frail/institutionalised patients).
Source: Orthogeriatric/hip fracture registry data; local pathway.
Classification
| Type | Location | Blood Supply Risk |
|---|---|---|
| Subcapital | Just below femoral head | Highest avascular necrosis risk |
| Transcervical | Through femoral neck | High avascular necrosis risk |
| Intertrochanteric | Between greater and lesser trochanters | Lower avascular necrosis risk |
| Subtrochanteric | Below lesser trochanter | Low avascular necrosis risk |
Displacement Patterns
- Valgus impacted - Common, may be subtle on X-ray, better prognosis
- Varus displaced - Worse prognosis, higher avascular necrosis risk
Complications
- Avascular necrosis - Blood supply comes UP the femoral neck to the head
- Non-union
- Collapse
- Mortality (related to immobility, comorbidities)
Treatment Options
| Treatment | Indication |
|---|---|
| Dynamic Hip Screw | Minimally displaced, younger patients, lower avascular necrosis risk |
| Cannulated screws | Minimally displaced subcapital fractures |
| Gamma nail (intramedullary nail) | Intertrochanteric/subtrochanteric fractures |
| Hemiarthroplasty | Displaced subcapital in elderly, lower functional demand |
| Total Hip Replacement | Displaced subcapital, higher functional demand, pre-existing arthritis |
Why total hip replacement for displaced subcapital fractures in elderly?
High risk of avascular necrosis with internal fixation. If fixation fails, patient needs more surgery. Better to do one definitive procedure and get them mobile quickly.
Source: Orthogeriatric/hip fracture registry data; local orthopaedic protocols; CC Bible.
8. Ankle Fractures
Key Anatomy
- Medial malleolus - Distal tibia
- Lateral malleolus - Distal fibula
- Posterior malleolus - Posterior lip of tibia
- Syndesmosis - Tibiofibular ligament complex
Important Findings
- Talar shift - Lateral subluxation of talus under tibia (unstable)
- Syndesmotic diastasis - Widening of tibiofibular joint (>5mm)
- Medial clear space widening - >4mm suggests deltoid ligament injury
Skin threatened? Look for blanching over displaced fractures. If skin is at risk, urgent reduction is needed to prevent skin necrosis.
Source: AO Foundation; local orthopaedic emergency protocols.
9. Open (Compound) Fractures
Open Fracture = Orthopaedic Emergency
Bone communicating with external environment through skin wound.
Signs of Open Fracture
- Bone visible through wound
- Wound communicating with fracture
- Gas in soft tissues on X-ray (subtle sign)
Management Priorities
- Assess neurovascular status - pulses, sensation, motor function
- Photograph wound - avoid repeated exposure
- Saline-soaked dressing
- Intravenous antibiotics - within 1 hour
- Tetanus prophylaxis
- Theatre within 6 hours (ideally 4 hours) for washout and debridement
- Temporary stabilisation - external fixator if definitive fixation not appropriate
Contamination risk: Grass, gravel, soil may contaminate the wound. Thorough lavage and debridement essential.
Why External Fixator First?
- Allows wound access for dressings and soft tissue management
- Avoids putting implants in potentially contaminated wound
- Can convert to internal fixation once soft tissues healthy
- May require plastic surgery for flap coverage if wound can't be closed
Source: AO Foundation; local orthopaedic trauma protocols.
10. Fixation Methods
| Method | Description | Common Uses |
|---|---|---|
| Cast/Backslab | Non-operative management | Stable fractures, paediatric fractures |
| K-wires | Thin wires through bone | Paediatric fractures, small bones |
| Screws | Compression or position screws | Simple fractures, fragments |
| Plates | Metal plate with multiple screws | Diaphyseal fractures, metaphyseal |
| Intramedullary Nail | Rod inside medullary canal | Long bone diaphyseal fractures |
| External Fixator | Pins through bone connected externally | Open fractures, temporary stabilisation |
| Dynamic Hip Screw | Lag screw + plate system | Neck of femur (intertrochanteric) |
| Gamma Nail | Intramedullary nail with cephalic screw | Intertrochanteric/subtrochanteric |
Complications of Internal Fixation
- Stress concentration - At tip of plate/intramedullary nail, risk of fracture at this point
- Stress shielding - Bone weakens under plate (less load)
- Hardware prominence - Can irritate soft tissues
- Infection
- Re-fracture after removal - Screw holes weaken bone temporarily
Hardware removal timing (if needed): Usually 18 months to 2 years after healing. Screw holes create temporary weakness - period of protected weight-bearing after removal.
11. Neurovascular Assessment
Always assess before and after reduction:
- Pulses - Palpate or Doppler
- Sensation - Light touch in nerve distributions
- Motor - Note: inability to move toes may be due to tendon disruption, not nerve injury
- Capillary refill
- Colour and temperature
12. Practice Questions
In the ABCS approach to interpreting X-rays, C stands for Cartilage/joints (joint spaces, growth plates).
What is the most appropriate management?
13. Wound Management
General Principles
| Step | Action |
|---|---|
| Analgesia | Provide adequate pain relief |
| Irrigation | Normal saline or running water |
| Debridement | Remove foreign bodies, devitalised tissue |
| Closure | Sutures, staples, tissue glue, or leave open |
| Dressing | Non-adherent, then appropriate secondary dressing |
Primary Closure Timing
Clean, sharp wounds can be closed primarily if:
- Seen within 6-8 hours (body)
- Seen within 24 hours (face - excellent blood supply)
- No signs of infection
- Clean wound with viable edges
Suturing
| Location | Suture Size | Remove After |
|---|---|---|
| Face | 5.0-6.0 | 5-7 days |
| Limbs | 4.0 | 10-14 days |
| Trunk | 3.0 | 10-14 days |
| Scalp | 3.0 staples | 7-10 days |
Absorbable sutures (Vicryl, Monocryl) are used for deep layers and mucosal surfaces.
Non-absorbable sutures (Nylon/Ethilon, Prolene) are used for skin closure.
Local Anaesthetic
Lignocaine max dose:
- Without adrenaline: 3 mg/kg (max 200 mg)
- With adrenaline: 7 mg/kg (max 500 mg)
1% lignocaine = 10 mg/mL
Source: CC Bible; local anaesthetic dosing reference.
Traditional teaching says avoid adrenaline in:
- Fingers, toes
- Nose, ears
- Penis
BUT: Modern evidence shows digital blocks WITH adrenaline are safe and provide better haemostasis and longer anaesthesia.
Source: Local anaesthetic dosing guidelines; CC Bible; recent digital block safety literature.
14. Tetanus Prophylaxis
Tetanus-Prone Wounds
Tetanus-prone = anything other than a clean minor cut:
- Puncture wounds
- Bite wounds
- Contamination with soil, dust, manure
- Devitalised tissue
- Burns, frostbite
- Compound fractures
- Foreign body present
Prophylaxis Guide
| Vaccination History | Clean Minor Wound | Tetanus-Prone Wound |
|---|---|---|
| <3 doses OR unknown | Tdap | Tdap + tetanus immunoglobulin |
| ≥3 doses, last >10 years | Tdap | Tdap |
| ≥3 doses, last 5-10 years | None | Tdap |
| ≥3 doses, last <5 years | None | None |
Q: Passive immunity for immediate tetanus protection? A: Tetanus immunoglobulin
Antibiotics do not prevent or treat tetanus — they only address wound infection, not toxin.
Source: Australian Immunisation Handbook; local tetanus prophylaxis guidelines.
Week 7 Study Checklist
Click to expand or view deep dives